Click MAX6754MAX6764 Lo-Poer, Single/Dal-Voltage Wino … · 2019. 4. 18. · (VCC = 1.0V to 6.0V,...

General DescriptionThe MAX6754–MAX6764 low-power window detec-tors monitor undervoltage/overvoltage conditions on system power supplies. These devices assert when the monitored voltage is under the undervoltage and/or over the overvoltage thresholds.The MAX6754–MAX6759/MAX6763/MAX6764 monitor a single voltage. The MAX6760/MAX6761/MAX6762 monitor dual-voltage systems. The MAX6754/MAX6755/MAX6756 provide a single undervoltage/overvoltage output and the MAX6757–MAX6764 provide independent undervoltage and overvoltage outputs. The outputs are available in push-pull or open-drain configurations.The MAX6754–MAX6762 offer factory-fixed voltage thresholds for monitoring system voltages from 0.9V to 5V with a selectable ±5%, ±10%, or ±15% window voltage. The MAX6763/MAX6764 allow for externally adjustable thresholds. The MAX6754–MAX6762 are available in two delay-timing options (20μs, typ or 100ms, min). The MAX6760/MAX6761/MAX6762 also include a latched overvoltage output function and the MAX6754–MAX6762 include a manual reset input.This family of products is available in small SOT23 and TDFN packages, and is specified over the extended temperature range of -40°C to +125°C.

Applications ● Telecommunications ● Networking ● Computers/Servers ● Data Storage ● Power Metering ● DC-DC Converter Modules ● Automotive

Benefits and Features ● Single/Dual-Supply Voltage Monitors ● Factory-Trimmed Window Threshold Options for 5V,

3.3V, 3V, 2.5V, 1.8V, 1.5V, 1.2V, and 0.9V Supplies ● Externally Adjustable Window Monitoring Options for

Supplies Down to 0.5V ● Selectable Window Threshold Options (±5%, ±10%, ±15%) ● Single (Combined UV/OV) or Dual (Separate UV and

OV) Outputs ● 20μs (typ) or 100ms (min) Timeout Period Options

(MAX6754–MAX6762) ● Manual Reset Input (MAX6754–MAX6762) ● Latched Overvoltage Output Function

(MAX6760/MAX6761/MAX6762) ● Immune to Short Voltage Transients ● Low 10μA Supply Current ● Low-Voltage Operation (Outputs Valid for VCC

Down to 1V) ● -40°C to +125°C Operating Temperature Range ● Small SOT23 and TDFN Packages ● AEC-Q100 Qualified (/V Parts Only, Refer to

Ordering Information)

19-3075; Rev 11; 3/19

Pin Configurations appear towards end of data sheet.Ordering Information appears at end of data sheet.

Click here for production status of specific part numbers.

Typical Application Circuit

MAX6757

NMI

RESETMR

GND

VCC

UV

OV

SET

VCC

µP

MAX6754–MAX6764 Low-Power, Single/Dual-Voltage Window Detectors

https://www.maximintegrated.com/en/storefront/storefront.html

(Voltages with respect to GND.)VCC, VCC2, ................................................................ -0.3V to +6.5VSET, OVLATCH, MR, UVIN, OVIN .................-0.3V to (VCC + 0.3V)UV, RESET, OV (open drain) .................................... -0.3V to +6.5VRESET, OV, UV, UV, RESET (push-pull) ......-0.3V to (VCC + 0.3V)Input/Output Current (all pins) ..................................................20mAContinuous Power Dissipation (TA = +70°C)

5-Pin SOT23-5 (derate 3.9mW/°C above TA = +70°C) ... 312mW 6-Pin SOT23-6 (derate 8.7mW/°C above TA = +70°C) ... 696mW 8-Pin TDFN (derate 24.4mW/°C above TA = +70°C) .... 1951mW

Operating Temperature Range ............................... -40°C to +125°CJunction Temperature ............................................................+150°CStorage Temperature Range .................................. -65°C to +150°CLead Temperature (soldering, 10s) .......................................+300°CSoldering Temperature (reflow)

Lead(Pb)-Free Package ....................................................+260°C Containing Lead(Pb) ..........................................................+240°C

5 SOT23PACKAGE CODE U5+1/U5+1A

Outline Number 21-0057Land Pattern Number 90-0174Thermal Resistance, Single-Layer Board:Junction to Ambient (θJA) 324.3°C/WJunction to Case (θJC) 82°C/WThermal Resistance, Multi-Layer Board:Junction to Ambient (θJA) 255.9°C/WJunction to Case (θJC) 81°C/W

6 SOT23PACKAGE CODE U6+1

Outline Number 21-0058Land Pattern Number 90-0175Thermal Resistance, Single-Layer Board:Junction to Ambient (θJA) N/AJunction to Case (θJC) 80°C/WThermal Resistance, Multi-Layer Board:Junction to Ambient (θJA) 115°C/WJunction to Case (θJC) 80°C/W

8 TDFNPACKAGE CODE T833+2

Outline Number 21-0137Land Pattern Number 90-0059Thermal Resistance, Single-Layer Board:Junction to Ambient (θJA) 54°C/WJunction to Case (θJC) 8°C/WThermal Resistance, Multi-Layer Board:Junction to Ambient (θJA) 41°C/WJunction to Case (θJC) 8°C/W

Package Information

Absolute Maximum Ratings

Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.


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https://pdfserv.maximintegrated.com/package_dwgs/21-0057.PDFhttps://pdfserv.maximintegrated.com/land_patterns/90-0174.PDFhttps://pdfserv.maximintegrated.com/package_dwgs/21-0058.PDFhttps://pdfserv.maximintegrated.com/land_patterns/90-0175.PDFhttps://pdfserv.maximintegrated.com/package_dwgs/21-0137.PDFhttps://pdfserv.maximintegrated.com/land_patterns/90-0059.PDF

(VCC = 1.0V to 6.0V, VCC2 = 0 to 6.0V (MAX6760–MAX6762), TA = -40°C to +125°C, unless otherwise noted. Typical values are at TA = +25°C.) (Note 1)

Package thermal resistances were obtained using the method described in JEDEC specification JESD51-7, using a four-layer board. For detailed information on package thermal considerations, refer to www.maximintegrated.com/thermal-tutorial.

For the latest package outline information and land patterns (footprints), go to www.maximintegrated.com/packages. Note that a “+”, “#”, or “-” in the package code indicates RoHS status only. Package drawings may show a different suffix character, but the drawing pertains to the package regardless of RoHS status.

Package Information (continued)

Electrical Characteristics

PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITSPOWER REQUIREMENTS

Operating Voltage Range VCC

(Note 2) 1.0 6.0VMAX6760TAAA/MAX6761TAAA/

MAX6762TAAA/MAX6763/MAX6764UT-T 1.4 6.0

VCC Supply Current ICC

VCC = 3.6V, MAX6754–MAX6759, no load 13 30

µAVCC = 3.6V, MAX6763/MAX6764, no load 10 23VCC = 3.6V, VCC ≥ VCC2, MAX6760/MAX6761/MAX6762, no load 13 30

VCC2 Supply CurrentICC2

VCC2 = 1.8V, VCC ≥ VCC2, MAX6760/MAX6761/MAX6762 1 1.5 µA

Adjustable Bias Current VCC2 (MAX6760–MAX6762TA_AD_)(Note 3) -20 +20 nA

VCC THRESHOLD

VCC Overvoltage Threshold OVTHTA = -40°C to +125°C, rising VCC

L, 5VVSET = VSB 5.750 5.875 6.000

V

SET = VCC 5.500 5.625 5.750SET = GND 5.250 5.375 5.500

T, 3.3VVSET = VSB 3.795 3.878 3.960SET = VCC 3.630 3.713 3.795SET = GND 3.465 3.548 3.630

R, 3.0VVSET = VSB 3.450 3.525 3.600SET = VCC 3.300 3.375 3.450SET = GND 3.150 3.225 3.300

Z, 2.5VVSET = VSB 2.875 2.938 3.000SET = VCC 2.750 2.813 2.875SET = GND 2.625 2.688 2.750

W, 1.8VVSET = VSB 2.070 2.115 2.160SET = VCC 1.980 2.025 2.070SET = GND 1.890 1.935 1.980



http://www.maximintegrated.com/thermal-tutorialhttp://www.maximintegrated.com/packages


Electrical Characteristics (continued)

PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS

VCC Undervoltage Threshold UVTHTA = -40°C to +125°C, falling VCC

L, 5VVSET = VSB 4.000 4.125 4.250

V

SET = VCC 4.250 4.375 4.500SET = GND 4.500 4.625 4.750

T, 3.3VVSET = VSB 2.640 2.723 2.805SET = VCC 2.805 2.888 2.970SET = GND 2.970 3.053 3.135




VCC2 Overvoltage Threshold OVTH2TA = -40°C to +125°C, rising VCC2

T, 3.3VVSET = VSB 3.795 3.878 3.960

V

SET = VCC 3.630 3.713 3.795SET = GND 3.465 3.548 3.630




I, 1.5VVSET = VSB (Note 2) 1.725 1.763 1.800SET = VCC (Note 2) 1.650 1.688 1.725SET = GND (Note 2) 1.575 1.613 1.650

G, 1.2VVSET = VSB (Note 2) 1.380 1.410 1.440SET = VCC (Note 2) 1.320 1.350 1.380SET = GND (Note 2) 1.260 1.290 1.320

E, 0.9VVSET = VSB (Note 2) 1.035 1.058 1.080SET = VCC (Note 2) 0.990 1.013 1.035SET = GND (Note 2) 0.945 0.968 0.990

ADJVSET = VSB 0.489 0.500 0.511SET = VCC 0.468 0.479 0.489SET = GND 0.447 0.457 0.468






VCC2 Undervoltage Threshold UVTH2

TA = -40°C to +125°C, falling VCC2

T, 3.3VVSET = VSB 2.640 2.723 2.805

V

SET = VCC 2.805 2.888 2.970SET = GND 2.970 3.053 3.135




I, 1.5VVSET = VSB (Note 2) 1.200 1.238 1.275SET = VCC (Note 2) 1.275 1.313 1.350SET = GND (Note 2) 1.350 1.388 1.425

G, 1.2VVSET = VSB (Note 2) 0.960 0.990 1.020SET = VCC (Note 2) 1.020 1.050 1.080SET = GND (Note 2) 1.080 1.110 1.140

E, 0.9VVSET = VSB (Note 2) 0.720 0.743 0.765SET = VCC (Note 2) 0.765 0.788 0.810SET = GND (Note 2) 0.810 0.833 0.855

ADJVSET = VSB 0.340 0.351 0.362SET = VCC 0.362 0.372 0.383SET = GND 0.383 0.394 0.404

Threshold Hysteresis VHYST VCC, VCC2 0.7 %UNDERVOLTAGE/OVERVOLTAGE INPUTS (UVIN, OVIN) (MAX6763/MAX6764)UVIN, OVIN Threshold Voltage VTH-IN 0.485 0.5 0.515 VUVIN, OVIN Input Bias Current IIN (Note 3) -20 +20 nAUVIN, OVIN Threshold Hysteresis VHYST 0.7 %





PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITSTIMING CHARACTERISTICS

Reset and UV Timeout Period tRP Figure 7D0 20 µsD3 100 185 320 ms

VCC to Reset Delay tD-RESETVCC/VCC2 falling at 10mV/µs fromUVTH + 100mV to UVTH - 100mV

20 µs

VCC to UV Delay tD-UVVCC/VCC2 rising at 10mV/µs fromOVTH - 100mV to OVTH + 100mV

20 µs

VCC to OV Delay tD-OVVCC/VCC2 rising at 10mV/µs fromOVTH - 100mV to OVTH + 100mV(MAX6757–MAX6762 only)

20 µs

UVIN to UV Delay (MAX6763/MAX6764) 20 µsOVIN to OV Delay (MAX6763/MAX6764) 20 µsStartup Delay Time tSTART D0 options only, OV output (Note 4) 2 msTHRESHOLD WINDOW SELECT INPUT (SET)Input-Voltage Low 0 0.1 V

Input Bias Voltage(Note 5) VSB

VCC = 1.4V 0.65 0.75VVCC = 3.0V 0.81 2.19

VCC = 6.0V 1.10 4.90Input-Voltage High VCC - 0.1 VCC VInput Current ISET -1 +1 µAMANUAL RESET (MR)

Input-Voltage Low 0.23 x VCCV

Input-Voltage High 0.6 x VCCV

Pullup Resistance to VCC 26 kΩMinimum Pulse Width 4 µsTransient Immunity 300 ns

Propagation DelaytD-MR MR falling, Figure 7 300 nstMR_P MR rising, Figure 7

D0 40D3 100 185 320 ms

OVERVOLTAGE OUTPUT LATCH CONTROL INPUT (OVLATCH)

Input-Voltage Low 0.3 x VCCV

Input-Voltage High 0.7 x VCCV





PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITSInput Bias Current IOVLATCH -1 +1 µARESET, RESET, UV, UV, OV

RESET, UV Output Low (Open Drain or Push-Pull)

VOL

Any VCC ≥ 1.0V, ISINK = 100µA,output asserted 0.3

V

Any VCC ≥ 1.2V, ISINK = 200µA,output asserted 0.3

Any VCC ≥ 1.71V, ISINK = 1.0mA,output asserted 0.3



RESET, UV Output High(Push-Pull)

VOH

Any VCC ≥ 1.71V, ISOURCE = 0.8mA,output deasserted

0.8 x VCC

VAny VCC ≥ 2.85V, ISOURCE = 2.0mA,output deasserted0.8 x VCC


0.8 x VCC

RESET, UV Output Low(Push-Pull) VOL

Any VCC ≥ 1.71V, ISINK = 1.0mA,output deasserted 0.3

VAny VCC ≥ 2.85V, ISINK = 2.0mA,output deasserted 0.3

Any VCC ≥ 4.75V, ISINK = 4.0mA,output deasserted 0.3

RESET, UV Output High(Push-Pull) VOH

Any VCC ≥ 1.0V, ISOURCE = 50µA,output asserted

0.8 x VCC

V

Any VCC ≥1.2V, ISOURCE = 100µA,output asserted

0.8 x VCC

Any VCC ≥ 1.71V, ISOURCE = 0.8mA,output asserted

0.8 x VCC


0.8 x VCC


0.8 x VCC




Note 1: Devices are production tested at +25°C. Overtemperature limits are guaranteed by design.Note 2: Voltage monitoring requires that VCC must be greater than or equal to 1.4V, but outputs remain asserted in the correct state

for VCC down to 1.0V.Note 3: Guaranteed by design.Note 4: For D0 window detector options and OV outputs, startup delay time is the time required for the internal reference/circuitry to

reach specified accuracy after the monitor is powered up from GND.Note 5: The input bias voltage is based off of VCC. The minimum value is given by the equation (0.1 x VCC + 0.51)V and the

maximum value is given by (0.9 x VCC - 0.51)V.



OV Output Low(Open-Drain orPush-Pull)

VOL


V




OV Output High(Push-Pull)

VOH

Any VCC ≥ 1.0V, ISOURCE = 50µA,output deasserted

0.8 x VCC

V

Any VCC ≥ 1.2V, ISOURCE = 100µA,output deasserted

0.8 x VCC


0.8 x VCC


0.8 x VCC


0.8 x VCC


0.8 x VCC

RESET, UV, OV Output Open-Drain Leakage Current

ILKG Output not asserted 1 µA



(VCC = 5V, VCC2 = 3.3V, TA = +25°C, unless otherwise noted.)Typical Operating Characteristics

UNDERVOLTAGE THRESHOLDvs. TEMPERATURE

MAX

6754

toc0

2

TEMPERATURE (°C)

NORM

ALIZ

ED U

NDER

VOLT

AGE

THRE

SHOL

D (V

)

1109580655035205-10-25

0.98

0.99

1.00

1.01

1.02

1.03

0.97-40 125

UNDERVOLTAGE THRESHOLD RISING

UNDERVOLTAGE THRESHOLD FALLING

NORMALIZED TO FALLINGTHRESHOLD AT TA = +25°C

TRANSIENT IMMUNITYvs. THRESHOLD OVERDRIVE

MAX

6754

toc0

3

OVERDRIVE (mV)

TRAN

SIEN

T IM

MUNI

TY (µ

s)

10010

100

10001

1000

10

OUTPUT ASSERTSABOVE THIS LINE

D3 TIMEOUT PERIODvs. TEMPERATURE

MAX

6754

toc0

4

TIME

OUT

PERI

OD (m

s)

182

184

186

188

190

192

194

180

TEMPERATURE (°C)1109580655035205-10-25-40 125

SUPPLY CURRENT vs. SUPPLY VOLTAGE

MAX

6754

toc0

5

VCC (V)

I CC

(µA)

5432

8

10

12

14

16

18

20

61 6

TA = +125°CTA = +85°CTA = +25°CTA = -40°C

OUTPUT-VOLTAGE LOWvs. SINK CURRENT

MAX

6754

toc0

6

ISINK (mA)

V OL (

V)

15105

0.2

0.4

0.6

0.8

1.0

1.2

1.4

1.6

1.8

00 20

VCC = 5.0VVCC = 3.3VVCC = 2.5VVCC = 1.8V

OVERVOLTAGE THRESHOLDvs. TEMPERATURE

MAX

6754

toc0

1

TEMPERATURE (°C)

NORM

ALIZ

ED O

VERV

OLTA

GE T

HRES

HOLD

(V)

1109580655035205-10-25

0.98

0.99

1.00

1.01

1.02

1.03

0.97-40 125

OVERVOLTAGE THRESHOLD RISING

OVERVOLTAGE THRESHOLD FALLING

NORMALIZED TO RISINGTHRESHOLD AT TA = +25°C

OUTPUT-VOLTAGE HIGHvs. SOURCE CURRENT

MAX

6754

toc0

7

ISOURCE (mA)

V OH

- VCC

(V)

15105

-1.6

-1.4

-1.2

-1.0

-0.8

-0.6

-0.4

-0.2

0

-1.80 20

VCC = 5.0V

VCC = 3.3V

VCC = 2.5V

VCC = 1.8V

MAX6754–MAX6764

Maxim Integrated │ 9www.maximintegrated.com

Low-Power, Single/Dual-Voltage Window Detectors

Pin DescriptionPIN

NAME FUNCTIONMAX6754/MAX6755/MAX6756

MAX6757/MAX6758/MAX6759

MAX6760/MAX6761/MAX6762

MAX6763/MAX6764

1 1 1 –VCC

Power Voltage Input. VCC powers the device. VCC is the monitored voltage. Connect VCC of the MAX6756 to an RC filter to ensure proper operation during extreme transition events. A 100Ω resistor in series with a 0.1µF bypass capacitor is sufficient for most applications. See Figure 9 for more details.

— — — 1 Power Input. VCC powers the device.2 2 2 2 GND Ground

3 3 8 — MR

Active-Low Manual Reset Input. Drive MR low to assert undervoltage and reset outputs. The asserted output remains asserted for the specified propagation delay period after MR goes high. MR is internally pulled up to VCC through a 26kΩ resistor.

4 — — — RESET/RESET

Reset Output. The Reset Output asserts when VCC is below the selected UVTH threshold or above the selected OVTH threshold. Reset output deasserts after the specified timeout period after VCC rises above the UVTH threshold or drops below the OVTH threshold.MAX6754: Active-low push-pull output (RESET).MAX6755: Active-high push-pull output (RESET).MAX6756: Active-low open-drain output (RESET).

Pin Configurations

GND

RESET (RESET)MR

1 5 SETVCC

MAX6754MAX6755MAX6756

SOT23( ) MAX6755 ONLY.

TOP VIEW

2

3 4

GND

UV (UV)

1 6 SET

5 OV

VCC


SOT23( ) MAX6758 ONLY.

2

3 4MR

1

2

3

4

8

7

6

5

MR

OVLATCH

UV (UV)

OVSET

VCC2

GND

VCC


TDFN( ) MAX6761 ONLY.

GND

UV

1 6 OVIN

5 OV

VCC

MAX6763MAX6764

SOT23

2

3 4UVIN



PIN

NAME FUNCTIONMAX6754/MAX6755/MAX6756

MAX6757/MAX6758/MAX6759

MAX6760/MAX6761/MAX6762

MAX6763/MAX6764

5 6 4 — SET

Threshold Window Select Input. SET configures the undervoltage and overvoltage window range for the internal detectors. Connect SET to GND for ±5% window, or to VCC for ±10% window. Bias SET to VCC/2 for a ±15% window.

— 4 6 — UV/UV

Undervoltage Output. UV/UV asserts when the monitored supply/supplies are below the UVTH thresholds or MR is low. UV/UV deasserts after the specified timeout period when the monitored supply/supplies rise above the UVTH thresholds or for the specified propagation delay after MR goes high.MAX6757/MAX6760: Active-low push-pull output (UV).MAX6758/MAX6761: Active-high push-pull output (UV).MAX6759/MAX6762: Active-low open-drain output (UV).

— — 3 — VCC2VCC2 Voltage Input. Input for the second window voltage monitor, and device output power supply when VCC2 > VCC.

5 5 5 OV

Active-Low Overvoltage Output. OV asserts low when the monitored supply/supplies are above their overvoltage threshold (OVTH). OV goes high impedance immediately when the monitored supply/supplies drop below OVTH.There is no timeout delay period for the OV output.For MAX6763/MAX6764, OV is low when OVIN is above the internal 0.5V threshold. OV is high when OVIN is below the internal 0.5V threshold.MAX6757–MAX6762: Active-low open-drain output.MAX6763: Active-low push-pull output.MAX6764: Active-low open-drain output.

7 — OVLATCH

Overvoltage Output Latch Control Input. Drive OVLATCH high to latch the overvoltage output for any VCC or VCC2 overvoltage condition. Drive OVLATCH low to clear the latch after overvoltage conditions have been removed. The latch is transparent when OVLATCH is connected to GND. OVLATCH is a high-impedance input. Use external pullup or pulldown.

— — — 3 UVIN Undervoltage Input. UV is low when UVIN is below the internal 0.5V threshold. UV is high when UVIN is above the internal 0.5V threshold.

— — — 4 UVUndervoltage Output. UV is low when UVIN is below the internal 0.5V threshold. UV is high when UVIN is above the internal 0.5V threshold. There is no timeout delay period for the UV output.

— — — 6 OVIN Overvoltage Input. OV is low when OVIN is above the internal 0.5V threshold. OV is high when OVIN is below the internal 0.5V threshold.

— — — — EP Exposed Pad (TDFN Only). EP is internally connected to GND. Leave EP unconnected or connect to GND.

Pin Description (continued)



Figure 1. MAX6754/MAX6755/MAX6756 Functional Diagram


Functional Diagrams

TIMEOUTPERIODOPTION

ADJUSTMONITORVOLTAGE

UV THRESHOLD-5%, -10%, -15%

OV THRESHOLD+5%, +10%, +15%

INTERNALREFERENCE

GND

(RESET)/RESET

MR

VCC

OV MONITOR

UV MONITOR

MAX6754/MAX6755/MAX6756

OVTH

UVTH

SET

( ) MAX6755 ONLY.

TIMEOUTPERIODOPTION


UV THRESHOLD-5%, -10%, -15%

OV THRESHOLD+5%, +10%, +15%

INTERNALREFERENCE

GND

(UV)/UV

MR

VCC

OV MONITOR

UV MONITOR

MAX6757/MAX6758/MAX6759

OVTH

UVTH

SET

( ) MAX6758 ONLY.

OV

VCC




Functional Diagrams (continued)

OV MONITOR

UV MONITOR

OVTH

UVTH

OV MONITOR

UV MONITOR

OVTH

UVTH

UV THRESHOLD-5%, -10%, -15% OV THRESHOLD

+5%, +10%, +15%

INTERNALREFERENCE



TIMEOUTPERIODOPTION

OVCIRCUIT

MRVCC

VCC2

SET

GND

(UV)/UV

OV

OVLATCH

MAX6760/MAX6761/MAX6762

( ) MAX6761 ONLY.



Detailed DescriptionThe MAX6754–MAX6764 are low-power window voltage detectors capable of monitoring undervoltage and overvoltage conditions on system power supplies. Whenever a monitored voltage falls below its undervoltage threshold or exceeds its overvoltage threshold, these devices assert their outputs to notify the system (see Functional Diagrams).The MAX6754/MAX6755/MAX6756 are single-voltage window detectors with internally fixed nominal voltage, externally adjustable set window, single reset undervoltage/overvoltage output, and a manual reset input.The MAX6757/MAX6758/MAX6759 are single-voltage window detectors with internally set nominal voltage, externally adjustable set window, separate undervoltage/overvoltage outputs, and manual reset input.The MAX6760/MAX6761/MAX6762 are dual-voltage window detectors with internally/externally set nominal voltages, externally adjustable set window, separate undervoltage/overvoltage outputs, manual reset input, and overvoltage latch functions.The MAX6763/MAX6764 are single adjustable window detectors with separate undervoltage/overvoltage outputs.The MAX6754–MAX6762 offer factory-fixed voltage thresholds for monitoring system voltages from 0.9V to 5V. The MAX6754–MAX6762 include a SET function to select the window voltage to ±5%, ±10%, or ±15%. The MAX6763/MAX6764 allow for externally adjustable upper

and lower voltage thresholds to be set externally (down to 0.5V). The MAX6754–MAX6762 are available with two timing options (20μs propagation delay or 100ms minimum reset timeout).

Supply VoltagesVCC is the power-supply input and the monitored volt-age of the MAX6754–MAX6762. These devices feature a factory-trimmed VCC and VCC2 divider that sets the nominal input range (see Table 1 and Table 2). VCC for the MAX6763/MAX6764 is the power supply of the device and not the monitored voltage. For noisy systems, bypass VCC and VCC2 each with a 0.1μF capacitor to GND. Connect VCC of the MAX6756 to an RC filter to ensure proper operation during extreme transition events. A 100Ω resis-tor in series with a 0.1µF bypass capacitor is sufficient for most applications. See Figure 9 for more details.

Setting the Adjustable Nominal Voltage ThresholdThe MAX6760/MAX6761/MAX6762 (versions with suffixes LA, TA, RA, ZA, WA, and AA) offer adjustable nominal voltage threshold to monitor VCC2. Use an external voltage-divider to set the voltage at VCC2 to 0.4255V. Configure SET to select a monitor window of ±5%, ±10%, or ±15% (see Figure 5). The MAX6760/MAX6761/MAX6762 suffix AA monitor only VCC2 and do not monitor VCC.

Figure 4. MAX6763/MAX6764 Functional Diagram

Figure 5. Setting the Threshold Voltage of VCC2

Functional Diagrams (continued)

INTERNALREFERENCE

0.5V

GND

OV MONITOR

UV MONITOR

OVTH

UVTH

UV

OV

UVIN

VCC

OVIN

MAX6763/MAX6764

OV

(UV)UV

0.4255V +5%+10%+15%

VCC2

0.4255V -5%-10%-15%

MAX6760/MAX6761/MAX6762(SUFFIXES LA, TA, RA, ZA, WA, AA)

V+

R1

R2

( ) MAX6761 ONLY.



Choose R2 to have a resistance of up to 500kΩ. Calculate R1 by:

R1 = ((V+ - 0.4255V) x R2) / 0.4255VThe MAX6763/MAX6764 provide inputs to a window detector allowing the programming of the threshold voltage to within VCC (see Figure 6).Choose R1, R2, and R3 such that:

(V+ / (R1 + R2 + R3)) ≥ 1μA

SETThe MAX6754–MAX6762 allow the setting of the window voltage range of the voltage detector. Connect SET to GND to set a ±5% window. Connect SET to VCC for a ±10% window. Bias SET to VCC / 2 for a ±15% window.

Manual Reset (MR)The MAX6754–MAX6762 include an active-low manual reset input. Drive MR low to assert a reset output (MAX6754/MAX6755/MAX6756) or an undervoltage output (MAX6757/MAX6758/MAX6759). The output remains asserted for the specified propagation delay time (see Figure 7a and Figure 7b) after MR goes high. MR is inter-nally pulled to VCC with a 26kΩ resistor.

Overvoltage Latch Control Input (OVLATCH)The MAX6760/MAX6761/MAX6762 provide an overvoltage latch control input (OVLATCH). Drive OVLATCH high to latch the overvoltage output for any VCC or VCC2 overvoltage condition. Drive OVLATCH low to clear the latch after overvoltage conditions have been removed. The latch is transparent when OVLATCH is connected to GND. OVLATCH is a high impedance input. Use external pullup or pulldown.

Reset, Undervoltage, and Overvoltage Outputs (RESET, RESET, UV, UV, OV)RESET, RESET, UV, UV, and OV outputs assert when the monitored supply is below the selected UVTH threshold or above the selected OVTH threshold. The reset output deasserts after the specified timeout period when the monitored supply rises above the UVTH threshold or drops below the OVTH threshold. The push-pull versions are referenced to VCC.The MAX6760/MAX6761/MAX6762 monitor both VCC and VCC2. An undervoltage/overvoltage condition on either voltage supply asserts the corresponding output. RESET and UV are guaranteed to be in the correct logic state when VCC or VCC2 > 1V.

Figure 6. Setting the Undervoltage/Overvoltage Window

Figure 7a. Manual RESET/RESET Timing Diagram

Figure 7b. VCC/RESET, UV Timing Diagram

INTERNALREFERENCE

0.5V

GND

OV MONITOR

UV MONITOR

OVTH

UVTH

UV

OV

UVIN

VCC

OVIN

MAX6763/MAX6764

V+

R1

R2

R3

OVERVOLTAGE ASSERTS WHEN

UNDERVOLTAGE ASSERTS WHEN

V+ x R3R1 + R2 + R3

> 0.5V

< 0.5VV+ x (R2 + R3)R1 + R2 + R3

MR

RESET, UV

tD-MR

tMR_P

tD-UV

tRP

VCC

RESET, UV

(RESET IS THE COMPLEMENT OF RESET)



Applications InformationMicroprocessor MonitoringFigure 8 shows a microprocessor monitoring circuit. An overvoltage condition on either the core or I/O supply

turns the SCR on, blowing the fuse to disconnect the circuit from the power source. An optional capacitor (C1) on the gate of the SCR provides additional transient immunity against nuisance trips.

Figure 8. Microprocessor Monitoring

Figure 9. MAX6756 Input Filter Connection

VCC

GND

MR

RESET

SET

VCC

µP

NMI

RESET

100Ω

0.1µF

VCC

10kΩ

VCC

MAX6756

MAX6760

GND

SET

VCC2

VCC

UV

OV

MR

OVLATCH

PUSH BUTTON

RESET

NMI

I/ODC-DC

CONVERTER

COREDC-DC

CONVERTER

mP

I/O

CORE

FUSE

UNREGULATEDPOWER SOURCE

SCR100kΩ 100kΩ

100kΩ

*C11mF *OPTIONAL.



Table 1. Window Threshold Voltage Suffix Guide Single Fixed VCC (MAX6754—MAX6759)

Table 2. Window Threshold Voltage Suffix Guide Dual Fixed/Adjustable (MAX6760/MAX6761/MAX6762)

Table 3. Timeout Period Suffix Guide

*See the Setting the Adjustable Nominal Voltage Threshold section.

PARTMAX6754UKLD0MAX6754UKLD3MAX6754UKTD0MAX6754UKTD3MAX6754UKZD0MAX6754UKZD3MAX6754UKWD0MAX6754UKWD3MAX6755UKLD0MAX6755UKLD3MAX6755UKTD0MAX6755UKTD3MAX6755UKZD0MAX6755UKZD3MAX6755UKWD0MAX6755UKWD3MAX6756UKLD0MAX6756UKLD3MAX6756UKTD0MAX6756UKTD3MAX6756UKZD0MAX6756UKZD3MAX6756UKWD0MAX6756UKWD3MAX6757UTTD0MAX6757UTTD3MAX6757UTLD0MAX6757UTLD3MAX6757UTZD0MAX6757UTZD3MAX6757UTWD0MAX6757UTWD3MAX6758UTLD0MAX6758UTLD3MAX6758UTTD0MAX6758UTTD3 MAX6758UTZD0MAX6758UTZD3MAX6758UTWD0MAX6758UTWD3

PART NO. SUFFIX

VCC NOMINAL SYSTEM VOLTAGE

(V)

VCC2 NOMINAL SYSTEM VOLTAGE

(V)LT 5 3.3LR 5 3.0LA 5 ADJ*TZ 3.3 2.5TW 3.3 1.8TI 3.3 1.5TG 3.3 1.2TE 3.3 0.9TA 3.3 ADJ*RZ 3.0 2.5RW 3.0 1.8RI 3.0 1.5RG 3.0 1.2RE 3.0 0.9RA 3.0 ADJ*ZW 2.5 1.8ZI 2.5 1.5ZG 2.5 1.2ZE 2.5 0.9ZA 2.5 ADJ*WI 1.8 1.5WG 1.8 1.2WE 1.8 0.9WA 1.8 ADJ*AA — ADJ*

TIMEOUT PERIOD SUFFIX

ACTIVE TIMEOUT PERIOD

MIN (ms) Typ (ms) MAX (ms)D0 — 0.02 —D3 100 185 320

PARTMAX6759UTLD0MAX6759UTLD3MAX6759UTTD0MAX6759UTTD3MAX6759UTZD0MAX6759UTZD3MAX6759UTWD0MAX6759UTWD3MAX6760TALTD3MAX6760TALAD3MAX6760TATZD3MAX6760TATWD3MAX6760TATAD3MAX6760TARAD3MAX6760TAZWD3MAX6760TAZAD3MAX6760TAWED3MAX6760TAWAD3MAX6761TALTD3MAX6761TALAD3MAX6761TATZD3MAX6761TATWD3MAX6761TATAD3MAX6761TARAD3MAX6761TAZWD3MAX6761TAZAD3MAX6761TAWED3MAX6761TAWAD3MAX6762TALTD3MAX6762TALAD3MAX6762TATZD3MAX6762TATWD3MAX6762TATAD3MAX6762TARAD3MAX6762TAZWD3MAX6762TAZAD3MAX6762TAWED3MAX6762TAWAD3MAX6763UTMAX6764UT

PART NO. SUFFIX VCC NOMINAL SYSTEM VOLTAGE (V)L 5.0T 3.3R 3.0Z 2.5W 1.8

Standard Versions Table



Devices are available in both leaded and lead(Pb)-free packag-ing. Specify lead-free by replacing “-T” with “+T” when ordering./V denotes an automotive qualified part. Insert the threshold level suffixes for VCC and VCC2 (see Table 1 and Table 2) after UK, UT, or TA. For the MAX6754–MAX6759, insert only the VCC threshold suffix after the UK or UT. Insert the reset timeout delay (see Table 3) after D to complete the part number. For example, the MAX6760TALTD3-T provides a VCC threshold of 5V, a VCC2 threshold of 3.3V, and a 100ms minimum reset timeout period. Sample stock is generally held on standard versions only (see the Standard Versions Table). Standard versions have an order increment requirement of 2500 pieces. Nonstandard versions have an order increment require-ment of 10,000 pieces. Contact factory for availability.

Chip InformationPROCESS: BiCMOS

Ordering InformationPART TEMP RANGE PIN-PACKAGE

MAX6754UK_D_-T -40°C to +125°C 5 SOT23-5MAX6755UK_D_-T -40°C to +125°C 5 SOT23-5MAX6756UK_D_-T -40°C to +125°C 5 SOT23-5MAX6756UK_D_/V+T -40°C to +125°C 5 SOT23-5MAX6757UT_D_-T -40°C to +125°C 6 SOT23-6MAX6758UT_D_-T -40°C to +125°C 6 SOT23-6MAX6759UT_D_/V-T -40°C to +125°C 6 SOT23-6MAX6760TA_ _D_-T -40°C to +125°C 8 TDFN-EPMAX6761TA_ _D_-T -40°C to +125°C 8 TDFN-EPMAX6762TA_ _D_-T -40°C to +125°C 8 TDFN-EPMAX6763UT-T -40°C to +125°C 6 SOT23-6MAX6764UT-T -40°C to +125°C 6 SOT23-6

Selector GuidePUSH-PULL RESET

PUSH-PULL RESET

OPEN-DRAIN RESET

PUSH-PULL UV

PUSH-PULL UV

OPEN-DRAIN UV

PUSH-PULL OV

OPEN-DRAIN OV

MAX6754 X — — — — — — —MAX6755 — X — — — — — —MAX6756 — — X — — — —MAX6757 — — — X — — — XMAX6758 — — — — X — — XMAX6759 — — — — — X — XMAX6760 — — — X — — — XMAX6761 — — — — X — — XMAX6762 — — — — — X — XMAX6763 — — — X — — X —MAX6764 — — — — — X — X



Revision HistoryREVISIONNUMBER

REVISION DATE DESCRIPTION

PAGESCHANGED

4 1/11 Added /V to the MAX6759 Ordering Information and added soldering temperature in the Absolute Maximum Rating section 2, 16

5 10/15 Adding /V part number of MAX6756 to data sheet 1, 16–186 11/15 Updated package code for 5 SOT23 in Ordering Information section 197 3/16 Re-added Standard Versions table 17–188 6/16 Removed top mark information from Standard Versions table 17–18

9 3/17Moved Ordering Information and Selector Guide to end of data sheet and Pin Configurations to before Pin Description table; updated Pin Description (row 1), Supply Voltages section, and added Figure 9

1, 9, 13, 16, 17

10 11/17 Added AEC statement to Benefits and Features section 1

11 3/19 Updated Package Information 2, 17

Maxim Integrated cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim Integrated product. No circuit patent licenses are implied. Maxim Integrated reserves the right to change the circuitry and specifications without notice at any time. The parametric values (min and max limits) shown in the Electrical Characteristics table are guaranteed. Other parametric values quoted in this data sheet are provided for guidance.

Maxim Integrated and the Maxim Integrated logo are trademarks of Maxim Integrated Products, Inc.


© 2019 Maxim Integrated Products, Inc. │ 19

For pricing, delivery, and ordering information, please visit Maxim Integrated’s online storefront at https://www.maximintegrated.com/en/storefront/storefront.html.

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